Suppression of the Interferon and NF-κB Responses by Severe Fever with Thrombocytopenia Syndrome Virus

B, Qu; Qi, Xian; Wu, Xiaodong; Liang, Mifang; Li, Chuan; Cardona, Carol J.; Xu, Wayne; Tang, Fenyang; Li, Zhifeng; Wu, Bing; Powell, Kira; Wegner, Marta; Li, Dexin; Xing, Zheng

doi:10.1128/jvi.00612-12

Cited by 122 publications

(152 citation statements)

References 55 publications

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“…Thus, SFTSV NSs preferentially suppressed IRF3 but not NFkB activity in our setting. These results were at odds with a previous report (Qu et al, 2012), but might be more compatible with the overproduction of NFkB-induced cytokines in SFTSVinfected cells (Jin et al, 2015). Further studies are required to determine whether NFkB is activated by SFTSV.…”

contrasting

confidence: 57%

“…Consistent with this, SFTSV NSs protein has been shown to suppress type I IFN production through the interaction with RIG-I and TRIM25, as well as IRF3 kinases TBK1 and IKKe, leading to their sequestration in virus-induced cytoplasmic subdomains separated from mitochondria (Qu et al, 2012;Ning et al, 2014;Santiago et al, 2014;Wu et al, 2014). In addition, SFTSV NSs has recently been found to perturb type I IFN signalling by interacting with STAT2, and thus retaining STAT1 and STAT2 in the cytoplasm (Ning et al, 2015).…”

mentioning

confidence: 60%

“…During the course of SFTSV infection in humans, IFNs are almost undetectable in the blood (Qu et al, 2012), indicating the suppression of IFN production. Consistent with this, SFTSV NSs protein has been shown to suppress type I IFN production through the interaction with RIG-I and TRIM25, as well as IRF3 kinases TBK1 and IKKe, leading to their sequestration in virus-induced cytoplasmic subdomains separated from mitochondria (Qu et al, 2012;Ning et al, 2014;Santiago et al, 2014;Wu et al, 2014).…”

mentioning

confidence: 99%

“…Although SFTSV NSs has been shown to inhibit both NFkB and IRF3 transcription factors (Qu et al, 2012), we noted the upregulated expression of many NFkB-regulated cytokines such as IL-6, IL-8 and TNF-a in humans and primates infected with SFTSV (Deng et al, 2012;Sun et al, 2012;Jin et al, 2015). To resolve this discrepancy, we compared the impact of NSs expression on Sendai virus (SENV)-induced activation of IFN-b promoter and canonical kB elements.…”

mentioning

confidence: 99%

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Suppression of type I and type III IFN signalling by NSs protein of severe fever with thrombocytopenia syndrome virus through inhibition of STAT1 phosphorylation and activation

Chaudhary

Zhang

Yuen

et al. 2015

Journal of General Virology

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Severe fever with thrombocytopenia syndrome virus (SFTSV) is an emerging tick-borne pathogen causing significant morbidity and mortality in Asia. NSs protein of SFTSV is known to perturb type I IFN induction and signalling, but the mechanism remains to be fully understood. Here, we showed the suppression of both type I and type III IFN signalling by SFTSV NSs protein is mediated through inhibition of STAT1 phosphorylation and activation. Infection with live SFTSV or expression of NSs potently suppressed IFN-stimulated genes but not NFkB activation. NSs was capable of counteracting the activity of IFN-a1, IFN-b, IFN-l1 and IFN-l2. Mechanistically, NSs associated with STAT1 and STAT2, mitigated IFN-b-induced phosphorylation of STAT1 at S727, and reduced the expression and activity of STAT1 protein in IFN-b-treated cells, resulting in the inhibition of STAT1 and STAT2 recruitment to IFNstimulated promoters. Taken together, SFTSV NSs protein is an IFN antagonist that suppresses phosphorylation and activation of STAT1.

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confidence: 57%

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confidence: 60%

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confidence: 99%

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confidence: 99%

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Suppression of type I and type III IFN signalling by NSs protein of severe fever with thrombocytopenia syndrome virus through inhibition of STAT1 phosphorylation and activation

Chaudhary

Zhang

Yuen

et al. 2015

Journal of General Virology

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“…Researchers have recently also found that SFTSV NSs had a similar effect on the viral multiplication, through the regulation of and escape from the host's innate immunity (15,16,20). Based on the physician's experience in clinical practice of SFTS treatment, it is unacceptable to give extrinsic IFN to SFTS patients due to the serious side effects of IFN administration, for example, severe fever, leukocytopenia, and thrombocytopenia, which are just the typical symptoms caused by SFTSV infection.…”

Section: Introductionmentioning

confidence: 99%

Immunization with Recombinant SFTSV/NSs Protein Does Not Promote Virus Clearance in SFTSV-Infected C57BL/6J Mice

Huang²,

Bai³

et al. 2015

Viral Immunology

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The severe fever with thrombocytopenia syndrome (SFTS), caused by a novel Phlebovirus in the Bunyaviridae family named SFTS virus (SFTSV), is an emerging hemorrhagic fever with a wide distribution and high casefatality rate. Neither effective treatment nor vaccines are available to treat and prevent this disease to date. It was recently reported that SFTSV nonstructural protein in S segment (SFTSV/NSs) functioned as the interferon (IFN) antagonist targeting for suppressing host's innate immunity. This study was designed to investigate the potential of recombinant SFTSV (rSFTSV)/NSs protein for inducing anti-NSs antibodies by pre-exposure vaccination to block SFTSV/NSs in the SFTSV-infected C57BL/6J mice. All mice in the rSFTSV/NSsvaccinated group, negative control group, and blank control group survived with no visible clinical abnormities throughout the experiment, except for their sacrifice for sampling at each observation point. However, unexpectedly, a negative effect on the bodyweight of rSFTSV/NSs-vaccinated mice was observed after 21 days postinoculation. Pre-exposure vaccination with rSFTSV/NSs did not accelerate virus removal in mice though high titer of anti-NSs antibodies and elevated IFN-c were detected in sera. Before virus challenge, the rSFTSV/ NSs-vaccinated mice and negative control mice had a larger amount of platelets (PLT) than the blank control mice, which indicated that Freund's adjuvants could stimulate PLT production. In the aspect of cytokines, the rSFTSV/NSs-vaccinated mice had a 5-to 10-fold increase in interleukin (IL)-2, IL-5, IL-6, IFN-c, and tumor necrosis factor-a, which probably just had a negative effect on the bodyweight of mice. In general, therefore, previous vaccination with rSFTSV/NSs did not accelerate virus clearance in the SFTSV-infected mice.

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Pathogenesis of Emerging and Novel Bunyaviruses in Humans

Jin

2015

Human Emerging and Re‐emerging Infections

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Suppression of the Interferon and NF-κB Responses by Severe Fever with Thrombocytopenia Syndrome Virus

Cited by 122 publications

References 55 publications

Suppression of type I and type III IFN signalling by NSs protein of severe fever with thrombocytopenia syndrome virus through inhibition of STAT1 phosphorylation and activation

Suppression of type I and type III IFN signalling by NSs protein of severe fever with thrombocytopenia syndrome virus through inhibition of STAT1 phosphorylation and activation

Immunization with Recombinant SFTSV/NSs Protein Does Not Promote Virus Clearance in SFTSV-Infected C57BL/6J Mice

Pathogenesis of Emerging and Novel Bunyaviruses in Humans

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